Development of array piezoelectric fingers towards <i>in vivo</i> breast tumor detection

Xu, Xin; Chung, Youngsoo; Brooks, Ari D.; Shih, Wei‐Heng

doi:10.1063/1.4971325

Cited by 13 publications

(12 citation statements)

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“…Piezoelectric immunosensors have been developed to identify specific antibody immunity in breast cancer patents. Xu et al [ 15 ] developed a piezoelectric finger (PEF) for identifying breast cancer and tested it on human subjects. In their study, PEF detected 94% of all tumors and 93% of malignant tumors, while mammography detected 91% of all tumors and 80% of malignant tumors.…”

Section: Biomarkers For Breast Cancer Detectionmentioning

confidence: 99%

“…Several MI methods have been developed and evaluated in numerical and experimental settings. Recent clinical studies suggested that investigators should perhaps pay more attention to the development of MI prototypes for clinical environment with particular focus on high sensitivity radio frequency (RF) sensors and sensor arrays [ 12 , 13 , 14 , 15 , 16 , 17 , 18 , 19 , 20 , 21 ].…”

Section: Introductionmentioning

confidence: 99%

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Early Diagnosis of Breast Cancer

Wang

2017

Sensors

359

220

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Early-stage cancer detection could reduce breast cancer death rates significantly in the long-term. The most critical point for best prognosis is to identify early-stage cancer cells. Investigators have studied many breast diagnostic approaches, including mammography, magnetic resonance imaging, ultrasound, computerized tomography, positron emission tomography and biopsy. However, these techniques have some limitations such as being expensive, time consuming and not suitable for young women. Developing a high-sensitive and rapid early-stage breast cancer diagnostic method is urgent. In recent years, investigators have paid their attention in the development of biosensors to detect breast cancer using different biomarkers. Apart from biosensors and biomarkers, microwave imaging techniques have also been intensely studied as a promising diagnostic tool for rapid and cost-effective early-stage breast cancer detection. This paper aims to provide an overview on recent important achievements in breast screening methods (particularly on microwave imaging) and breast biomarkers along with biosensors for rapidly diagnosing breast cancer.

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Section: Biomarkers For Breast Cancer Detectionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Early Diagnosis of Breast Cancer

Wang

2017

Sensors

359

220

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“…The smallest tumor detected by the PEF was 2 mm × 5 mm. 39,40 Furthermore, our previous model tissue studies have also shown that the detectable depth by a PEF was approximately twice that of the probe size of the PEF. 37,40 In other words, with a larger probe size, a PEF can assess the elastic response of the tissue at a larger depth.…”

Section: Articlementioning

confidence: 87%

“…39,40 Furthermore, our previous model tissue studies have also shown that the detectable depth by a PEF was approximately twice that of the probe size of the PEF. 37,40 In other words, with a larger probe size, a PEF can assess the elastic response of the tissue at a larger depth. It is therefore possible to use a set of PEFs each with a different probe size to do the elastic modulus measurements on the same tissue and use the obtained results to deduce the tissue elastic modulus profile in the depth direction without the need of any inversion simulations.…”

Section: Articlementioning

confidence: 87%

“…In our previous in vivo study, PEF has been tested on 40 patients and demonstrated that it could detect most types of breast tumors in vivo including fibroadenomas, cysts, invasive carcinomas, and ductal carcinomas in situ. 39,40 The overall sensitivity of the PEF test was 87%. In women who were 40 years old or younger, the overall sensitivity was 100%.…”

Section: Articlementioning

confidence: 99%

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A model study of 3-dimensional localization of breast tumors using piezoelectric fingers of different probe sizes

Shih

2019

Review of Scientific Instruments

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Mammography is the only Food and Drug Administration approved breast cancer screening method. The drawback of the tumor image in a mammogram is the lack of tumor depth information as it is only a 2-dimensional projection of a 3-dimensional (3D) tumor. In this work, we investigated 3D tumor imaging by assessing tumor depth information using a set of piezoelectric fingers (PEFs) with different probe sizes which were known to be capable of eliciting tissue elastic responses to different depths and tested it on model tumor tissues consisted of gelatin with suspended clay inclusions. The locations of the top and bottom surfaces of an inclusion were resolved by solving a simple spring model using the elastic measurements of the PEFs of different probe sizes as the input. The lateral sizes of an inclusion were determined as the full width at half maximum of the Gaussian fit to the measured lateral tumor elastic modulus profile. The obtained lateral inclusion sizes were in close agreement with the actual values, and the deduced depth profiles of an inclusion also agreed with the actual depth profiles so long as the bottom surface of the inclusion was within the depth sensitivity of the PEF with the largest probe size. This work offers a simple non-invasive method to predict the extent of a tumor in all 3 dimensions. The method is also non-radioactive.

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Stiffness mapping for early detection of breast cancer: combined force and displacement measurements

Olson

Throne

2022

Engineering with Computers

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Development of array piezoelectric fingers towards in vivo breast tumor detection

Cited by 13 publications

References 64 publications

Early Diagnosis of Breast Cancer

Early Diagnosis of Breast Cancer

A model study of 3-dimensional localization of breast tumors using piezoelectric fingers of different probe sizes

Stiffness mapping for early detection of breast cancer: combined force and displacement measurements

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